The aim of this thesis was to identify in the human blood transcriptome, relevant pathways and potential biomarker profiles that associate with chronological age and discriminate between __healthy... Show moreThe aim of this thesis was to identify in the human blood transcriptome, relevant pathways and potential biomarker profiles that associate with chronological age and discriminate between __healthy agers__ from long-lived families and normative ageing controls. Such profiles may harbor determinants of the biological ageing rate. We studied genome-wide gene expression profiles in blood of members of the Leiden Longevity Study (LLS) and replicated our findings by extended sampling within the unique LLS cohort. The findings of the exploratory analysis prompted us to investigate multiple genes in the IL7R and MTOR pathways for association with familial longevity. The results obtained by examining mRNA from blood samples brought us to study mTOR protein levels and signalling in primary skin fibroblasts from the corresponding donors in the LLS. Finally, to discover robust, biologically relevant gene networks as markers of chronological ageing in larger sample sizes, we performed an explorative network-based meta-analysis on large publicly available transcriptomic datasets. We have identified several networks, pathways and candidate genes potentially marking the biological age and the rate of ageing Show less
Sarcopenia in old age has been associated with a higher mortality, poor physical functioning, poor outcome of surgery and higher drug toxicity. There is no general consensus on the definition of... Show moreSarcopenia in old age has been associated with a higher mortality, poor physical functioning, poor outcome of surgery and higher drug toxicity. There is no general consensus on the definition of sarcopenia. The aim of the research presented in this thesis was to assess the implications of the use of different diagnostic criteria for sarcopenia, and to define the most accurate criteria for sarcopenia. Currently used diagnostic criteria for sarcopenia can be divided into criteria based on (1) low muscle mass, (2) low muscle strength, and (3) low walking speed. This thesis describes how muscle mass can be further divided into relative muscle mass and absolute muscle mass. A higher body or fat mass is associated with a lower relative muscle mass and with a higher absolute muscle mass. Higher relative muscle mass at old age is associated with better physical performance and with less insulin resistance. It is suggested to reserve the term sarcopenia to describe a low muscle mass and dynapenia to describe a low muscle strength. Most importantly, this research illustrates that it is impossible to compare studies about sarcopenia in scientific literature due to the use of different diagnostic criteria for sarcopenia. Show less